Oil filter assembly for an internal combustion engine

ABSTRACT

An oil filter assembly includes a filter housing, an oil filter unit, and a drain valve unit. The filter housing is provided with an oil inflow passageway through which oil is supplied into the filter housing from an oil pan, an oil exhaust passageway communicating with a main oil gallery, and an oil drain passageway through which oil is drained to the oil pan. The oil filter unit is disposed within the filter housing to filter the oil flowing into the filter housing. The drain valve unit is configured to selectively close the oil exhaust passageway and the oil drain passageway in response to whether the oil filter unit is disposed within the filter housing or whether the oil filter is removed from the filter housing.

CROSS-REFERENCE TO RELATED APPLICATIONS

This application claims priority of Korean Application No.10-2003-0068377, filed on Oct. 1, 2003, the disclosure of which isincorporated fully herein by reference.

FIELD OF THE INVENTION

The present invention relates to a lubrication system for an internalcombustion engine, and more particularly, to an oil filter assembly.

BACKGROUND OF THE INVENTION

Generally, an internal combustion engine is provided with a lubricationsystem for lubricating and cooling, and the lubrication systemcirculates oil through various parts of the engine. While oil circulatesin the engine, it gathers impurities. To remove such impurities, an oilfilter assembly is provided within the lubrication system.

A convention oil filter assembly includes a filter housing and an oilfilter that is disposed within the filter housing. If too manyimpurities are accumulated in the oil filter, the oil filter cannotoperate normally. Therefore, the oil filter must be exchanged.

Generally, the filter housing is configured to drain oil existingtherein to an oil pan when the oil filter is being exchanged. An oilexhaust passageway communicating with a main oil gallery is formed in alower portion of the filter housing, and an oil drain hole is branchedfrom the oil exhaust passageway. The oil drain hole communicates withthe oil pan.

In a state that the oil filter is mounted, a lower portion of a filterstand that supports the oil filter is inserted into the oil drain hole,and a sealing ring is coupled to an outer circumference of the filterstand, so that the oil drain hole is closed.

The oil filter stand is also exchanged when the oil filter is exchanged.Therefore, when the oil filter is removed from the filter housing, theoil drain hole is opened, so that oil in the oil filter housing movesinto the oil pan through the oil drain hole.

At this time, oil also flows into the main oil gallery through the oilexhaust passageway. Therefore, unfiltered oil flows into the engine.That is, while the oil filter is exchanged, unfiltered oil may flow intothe main oil gallery, and this can cause engine troubles.

Furthermore, the filter stand must be extended to the oil drain hole inorder to close the oil drain hole when the oil filter is mounted.Therefore, the filter stand is long so that there are difficulties inmounting the oil filter.

The information disclosed in this Background of the Invention section isonly for enhancement of understanding of the background of the inventionand should not be taken as an acknowledgement or any form of suggestionthat this information forms the prior art that is already known to aperson skilled in the art.

SUMMARY OF THE INVENTION

Embodiments of the present invention provide an oil filter assembly inwhich unfiltered oil is prevented from flowing to a main gallery whilean oil filter is being exchanged.

In a preferred embodiment of the present invention, the oil filterassembly comprises a filter housing, an oil filter unit, and a drainvalve unit. The filter housing is provided with an oil inflow passagewaythrough which oil is supplied into the filter housing from an oil pan,an oil exhaust passageway communicating with a main oil gallery, and anoil drain passageway through which oil is drained to the oil pan. Theoil filter unit is disposed within the filter housing to filter the oilflowing into the filter housing. The drain valve unit is configured toselectively close the oil exhaust passageway and the oil drainpassageway in response to whether the oil filter unit is disposed withinthe filter housing or whether the oil filter is removed from the filterhousing.

It is preferable that the drain valve unit opens the oil exhaustpassageway and closes the oil drain passageway when the oil filter unitis disposed within the filter housing, and wherein the drain valve unitcloses the oil exhaust passageway and opens the oil drain passagewaywhen the oil filter unit is removed from the filter housing.

Preferably, the drain valve unit comprises a valve housing, a plunger,and an elastic member. The valve housing is disposed in the oil exhaustpassageway and in the oil drain passageway, and it is provided with afirst through hole communicating with the oil exhaust passageway and asecond through hole communicating with the oil drain passageway. Theplunger is slidably disposed within the valve housing, and it is able tomove between a first position where the plunger closes the first throughhole and a second position where the plunger closes the second throughhole. The elastic member elastically supports the plunger against thevalve housing. The oil filter unit comprises a filter stand disposedwithin the filter housing and an oil filter fixedly coupled to thefilter stand. The filter stand presses the plunger such that the plungeris positioned to a first position where the plunger closes the secondthrough hole when the filter unit is disposed within the filter housing,and the elastic member urges the plunger such that the plunger ispositioned to a second position where the plunger closes the firstthrough hole when the filter unit is removed from the filter housing.

It is preferable that the elastic member is a coil spring.

BRIEF DESCRIPTION OF THE DRAWINGS

The accompanying drawings, which are incorporated in and constitute apart of the specification, illustrate an embodiment of the invention,and, together with the description, serve to explain the principles ofthe invention, where:

FIG. 1 schematically shows the oil filter assembly according to anembodiment of the present invention; and

FIG. 2 shows a state in which the oil filter unit is removed.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS

Hereinafter, a preferred embodiment of the present invention will bedescribed in detail with reference to the accompanying drawings.

Oil filter assembly 100 according to an embodiment of the present is adevice for filtering oil of an internal combustion engine. As shown inFIG. 1, oil stored in an oil pan 201 is supplied to an oil filterhousing 101 of the oil filter assembly 100 by an operation of an oilpump 203. The oil supplied from the oil pan 201 enters the housing 101through an oil inflow passageway 103.

An oil filter unit 105 is disposed within the oil filter housing 101,and the oil filter unit 105 filters the oil flowing into the oil filterhousing 101. The oil filter unit 105 is disposed within the oil filterhousing 101 such that the oil filter unit 105 can be separated from theoil filter housing 101. The oil filter unit 105 comprises an oil filter107 and a filter stand 109 to which the oil filter 107 is coupled. As anexample, the oil filter 107 can be coupled to the filter stand by acoupling member 111. The oil filter 107 can be a conventional oilfilter. It is preferable that the filter stand 109 has a shape of apillar extending in a vertical direction.

Oil is filtered by the oil filter 107, and the filtered oil is exhaustedfrom the filter housing 101. Then, the oil flows into a main oil gallery205 through an oil exhaust passageway 113. The oil supplied to the mainoil gallery 205 passes through various lubricated/cooled portions 207and enters the oil pan 201.

An oil drain passageway 115 is formed in the oil filter housing 101. Theoil drain passageway 115 communicates with the oil pan 201. The oildrain passageway 115 is formed in a lower portion of the oil filterhousing 101, so that the oil can be drained to the oil pan 201 throughthe oil drain passageway 115 when the oil filter unit 105 is removed.

The oil filter assembly 100 according to a preferred embodiment of thepresent invention has a drain valve unit 117 that is configured toselectively close the oil exhaust passageway 113 and the oil drainpassageway 115 in response to a mounting or a dismounting of the oilfilter unit 105.

As shown in FIG. 1, while the oil filter unit 105 is mounted, the drainvalve unit 117 operates such that the oil exhaust passageway 113 isopened and the oil drain passageway 115 is closed. On the other hand, asshown in FIG. 2, while the oil filter unit 105 is dismounted (removed),the drain valve unit 117 operates such that the oil exhaust passageway113 is closed and the oil drain passageway 115 is opened.

Therefore, in a state that the oil filter unit 105 is mounted, the oilpassing through the oil filter 107 flows into the main oil gallery 205,and in a state that the oil filter 105 is dismounted, the oil does notflow into the main oil gallery 205 but is drained to the oil pan 201.

The drain valve unit 117 includes a valve housing 119 that is disposedsimultaneously in the oil exhaust passageway 113 and the oil drainpassageway 115. The valve housing 119 has a cylindrical shape, and anupper end thereof is opened to communicate with an inside portion of theoil filter 107. The valve housing 119 is disposed in the oil filterhousing 101.

A first through hole 121 communicating with the oil exhaust passageway113 is formed in the valve housing 119, and second through holes 123 aand 123 b communicating with the oil drain passageway 115 are formed inthe valve housing 119. A plunger 125 is vertically slidably disposed inthe valve housing 119. The plunger 125 has a cylindrical shape, and alower end thereof is opened.

A coil spring 127 is disposed between the valve housing 119 and the coilspring 127. That is, the plunger is elastically supported by the coilspring against the valve housing 119. Instead of the coil spring 127,any arbitrary elastic member can be used which can elastically supportthe plunger 125. The coil spring 127 vertically upwardly supports theplunger 125 against the valve housing 119.

As shown in FIG. 1, while the oil filter unit 105 is mounted, the filterstand 109 presses the plunger 125 downwardly, and the coil spring 127 isthereby compressed. Consequently, the plunger 125 is positioned at itslowest position where the plunger 125 closes the second through hole 123a. At this time, the first through hole 121 is opened. Therefore, theoil flows in a dotted arrow direction in FIG. 1.

On the other hand, in a state such that the oil filter unit 105 isdismounted, as shown in FIG. 2, the plunger 125 is upwardly biased bythe coil spring 127. Consequently, the plunger 125 is positioned at itshighest position where the plunger 125 closes the first through hole121. At this time, the second through holes 123 a and 123 b are opened.

Therefore, while the oil filter unit 105 is being exchanged, theunfiltered oil is prevented from flowing to the main oil gallery 125 andis allowed to flow to the oil pan 201 through the oil drain passageway115. Therefore, when the oil filter unit 105 is dismounted, the oilflows in a dotted arrow direction of FIG. 2.

Although preferred embodiments of the present invention have beendescribed in detail hereinabove, it should be clearly understood thatmany variations and/or modifications of the basic inventive conceptsherein taught which may appear to those skilled in the present art willstill fall within the spirit and scope of the present invention, asdefined in the appended claims.

According to the oil filter assembly according to the embodiment of thepresent invention, unfiltered oil is prevented from flowing to the mainoil gallery while the oil filter unit is dismounted.

1-16. (Cancelled)
 17. A method of storing a video data stream on a harddisk drive (HDD) for efficient, non-sequential access to the storedstream of video data, the HDD having a plurality of sectors, each sectorhaving a first integer of user data bytes, the HDD addressable on sectorboundaries for non-sequential access, the video data stream including asequence of original transport packets, each original transport packethaving a second integer of bytes, the second integer of bytes differentfrom the first integer of user data bytes, wherein a third integer oforiginal transport packets are storable in a fourth integer of sectors,the fourth integer being a minimum number of sectors with the samenumber of user data bytes as the number of bytes in the third integer oforiginal transport packets, the method comprising: receiving thesequence of original transport packets; adding a fifth integer of bytesto each original transport packet to create a sequence of modifiedtransport packets, each modified transport packet having a sixth integerof bytes; and storing the sequence of modified transport packets on theHDD, wherein a seventh integer of modified transport packets are storedin an eighth integer of sectors, the eighth integer being a minimumnumber of sectors with the same number of user data bytes as the numberof bytes in the seventh integer of modified transport packets, theeighth integer of sectors smaller than the fourth integer of sectors.18. The method of claim 17, wherein the second integer of bytes is 188.19. The method of claim 18, wherein the fifth integer of bytes is fourso that the sixth integer of bytes is
 192. 20. The method of claim 17,wherein the second integer of bytes is 188 and wherein the fifth integerof bytes is four so that each modified transport packet has a length of192 bytes.
 21. The method of claim 20, wherein the first integer of userdata bytes is 512, and wherein the eighth integer of sectors is three.22. The method of claim 17, wherein the first integer of user data bytesis
 512. 23. The method of claim 17, wherein each original transportpacket includes synchronization bytes located at a beginning of eachoriginal transport packet, and wherein the fifth integer of bytes isadded in front of the synchronization bytes.
 24. The method of claim 17,wherein each original transport packet includes synchronization byteslocated at a beginning of each original transport packet, and whereinthe fifth integer of bytes is inserted behind the synchronization bytes.25. The method of claim 17, further comprising passing each modifiedtransport packet through a first buffer prior to storing on the HDD. 26.A system for storing video data for efficient, non-sequential access tothe stored video data, the system comprising: a receiver configured toreceive a stream of video data that includes a sequence of originaltransport packets, wherein each original transport packet has a firstpredetermined number of bytes; a first circuit configured to add asecond predetermined number of bytes to each original transport packetto create a modified transport packet having a third predeterminednumber of bytes; and a hard disk drive (HDD) configured to receive andstore each modified transport packet, wherein the HDD is addressable onsector boundaries, each sector having a predetermined number of userdata bytes different from the first predetermined number of bytes,wherein: the first byte in an original transport packet aligns with afirst user data byte in a sector after a first predetermined number ofsectors following a previous alignment; and the first byte in a modifiedtransport packet aligns with a first user data byte in a sector after asecond predetermined number of sectors following a previous alignment,wherein the second predetermined number of sectors is less than thefirst predetermined number of sectors.
 27. The system of claim 26,further comprising a second circuit configured to remove the secondpredetermined number of bytes from each modified transport packetretrieved from the HDD.
 28. The system of claim 26, wherein the firstpredetermined number of bytes is 188 and wherein the secondpredetermined number of bytes is four so that the third number of bytesis 192 bytes.
 29. The system of claim 28, wherein the predeterminednumber of user data bytes is 512, and wherein the second predeterminednumber of sectors is three.